MAR8073 : Advanced Marine Structures
- Offered for Year: 2019/20
- Module Leader(s): Professor Bob Dow
- Lecturer: Dr Simon Benson
- Owning School: Engineering
- Teaching Location: Newcastle City Campus
|Semester 1 Credit Value:||10|
|Semester 2 Credit Value:||10|
A1 - To increase awareness of structural behaviour and to develop advanced structural and material concepts.
A2 - To design plates and stiffened panels.
A3 - To develop the knowledge and skills to undertake elastic and plastic response analysis of stiffened plate structures.
A4. To gain the knowledge and understanding of finite elements applied to marine structures.
A5. To address theoretical and practical aspects of structural response analysis in the marine field.
A6. To develop the working knowledge and skills to undertake finite element analysis for marine structures
Outline Of Syllabus
This module covers the following topics: grillages, plate behaviour under lateral pressure or in-plate compression, structural dynamics, composite materials. Frames and grillages are introduced to develop knowledge and skills to analyse elastic and plastic responses of stiffened plate structures. The coverage of elastic plate theory and elasto-plastic plate theory enable the students to deal with plate under lateral pressure. Initial buckling and post buckling of plates and tripping of stiffeners are included for design of plate structure subjected to in-plane compression. Flexural vibration of plates and beams are treated for design of local structures to avoid vibration. Design of structures made of composite materials is included.
Elastic responses of grillages; plastic theory and its application to beams and grillages.
Elastic plate theory; plate behaviour under lateral pressure.
Elasto-Plastic bending of plate; elastic membrane theory; plate of rupture.
Elastic buckling behaviour of plates; effective width and long plate strength; wide plate strength; interaction equation.
Introduction to structural dynamics; flexural vibration of beams; flexural vibration of plates; design considerations and criteria for limiting vibrations.
Fundamental of both linear and non-linear structural response analysis; ship frame analysis and grillage analysis; structural finite element analysis; formualtions of beam elements, plane stress elements and higher order isoparametric elements; dispalement and shape functions; equivalent nodal loads; beam-bracket compatibility and stiffener-plate compatibility; sub-structure technique; condensation technique structural vibrations
|Scheduled Learning And Teaching Activities||Lecture||48||1:00||48:00||N/A|
|Guided Independent Study||Assessment preparation and completion||1||30:00||30:00||Coursework|
|Guided Independent Study||Assessment preparation and completion||2||2:00||4:00||Examinations|
|Guided Independent Study||Assessment preparation and completion||1||24:00||24:00||Examination revision|
|Scheduled Learning And Teaching Activities||Small group teaching||10||2:00||20:00||Tutorials|
|Guided Independent Study||Independent study||1||74:00||74:00||General revision, general reading and consolidating lecture notes|
Teaching Rationale And Relationship
- Lectures are designed to convey the underlying concepts and knowledge of marine structural design and analysis (IKO1-IKO22) and the professional skills required to solve structural problems (ISO1-ISO24).
- Tutorials support the students' self study in reading around the lecture material and learning to solve marine structural problems posed by the tutorial questions (ISO1-ISO24).
- Independent study gives time for the students to read recommended references (IKO1-IKO22) and practise their professional skills (ISO1-ISO24).
The format of resits will be determined by the Board of Examiners
|Written Examination||120||2||A||40||Semester 2 Examination|
|Written Examination||120||1||A||40||Semester 1 Examination|
|Report||2||M||20||Coursework taking a maximum of 30 hours|
Assessment Rationale And Relationship
The end of semester examinations enables students to demonstrate their theoretical understanding and professional skills under time-constraint as required by industry. The report on the finite element analysis of marine structure tests the students' ability to write reports, apply the taught professional skills and solve marine structural problems. The Graduate Skills Framework entries indicated as 'A' are also assessed in this way.